Dan E. Dobry scite author profile

Solid amorphous dispersions are frequently used to improve the solubility and, thus, the bioavailability of poorly soluble active pharmaceutical ingredients (APIs). Spray-drying, a well-characterized pharmaceutical unit operation, is ideally suited to producing solid amorphous dispersions due to its rapid drying kinetics. This paper describes a novel flowchart methodology based on fundamental engineering models and state-of-the-art process characterization techniques that ensure that spray-drying process development and scale-up are efficient and require minimal time and API. This methodology offers substantive advantages over traditional process-development methods, which are often empirical and require large quantities of API and long development times. This approach is also in alignment with the current guidance on Pharmaceutical Development Q8(R1). The methodology is used from early formulation-screening activities (involving milligrams of API) through process development and scale-up for early clinical supplies (involving kilograms of API) to commercial manufacturing (involving metric tons of API). It has been used to progress numerous spray-dried dispersion formulations, increasing bioavailability of formulations at preclinical through commercial scales.

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Formulation Development and In Vivo Evaluation of a New Dry Powder Formulation of Albuterol Sulphate in Beagle Dogs

Kuehl

Barrett

McDonald

et al. 2010

Pharm Res

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Biologic Comparison of Inhaled Insulin Formulations: ExuberaTM and Novel Spray-Dried Engineered Particles of Dextran-10

Kuehl

Cherrington

Dobry³

et al. 2014

AAPS PharmSciTech

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Inhaled peptides and proteins have promise for respiratory and systemic disease treatment. Engineered spray-dried powder formulations have been shown to stabilize peptides and proteins and optimize aerosol properties for pulmonary delivery. The current study was undertaken to investigate the in vitro and in vivo inhalation performance of a model spray-dried powder of insulin and dextran 10 in comparison to Exubera™. Dextrans are a class of glucans that are generally recognized as safe with optimum glass transition temperatures well suited for spray drying. A 70% insulin particle loading was prepared by formulating with 30% (w/v) dextran 10. Physical characterization revealed a "raisin like" particle. Both formulations were generated to produce a similar bimodal particle size distribution of less than 3.5 μm MMAD. Four female Beagle dogs were exposed to each powder in a crossover design. Similar presented and inhaled doses were achieved with each powder. Euglycemia was achieved in each dog prior and subsequent to dosing and blood samples were drawn out to 245 min post-exposure. Pharmacokinetic analyses of post-dose insulin levels were similar for both powders. Respective dextran 10-insulin and Exubera exposures were similar producing near identical area under the curve (AUC), 7,728 ± 1,516 and 6,237 ± 2,621; concentration maximums (C max), 126 and 121 (μU/mL), and concentration-time maximums, 20 and 14 min, respectively. These results suggest that dextran-10 and other dextrans may provide a novel path for formulating peptides and proteins for pulmonary delivery.

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Inhaled PYY(3–36) dry-powder formulation for appetite suppression

Kuehl

Boyden

Dobry³

et al. 2015

Drug Development and Industrial Pharmacy

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Dan E. Dobry

A Model-Based Methodology for Spray-Drying Process Development

Formulation Development and In Vivo Evaluation of a New Dry Powder Formulation of Albuterol Sulphate in Beagle Dogs

Biologic Comparison of Inhaled Insulin Formulations: ExuberaTM and Novel Spray-Dried Engineered Particles of Dextran-10

Inhaled PYY(3–36) dry-powder formulation for appetite suppression

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